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Magnesium Carboxylate

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SKU::RXSOL-19-1775-025

Product Qty Per Unit: 
25.00
Product usage unit: 
Kg

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Product Delivery Locations: 
Kattupalli Port ( L & T Shipbuilding Limited shipyard ), Ennore Port ( Coromondel International Limited Port Area ), Chennai Port, Mugaiyur port, Thiruchopuram port, Silambimangalam Shipyard, Parangipettai port, PY-03 Oil Field, Kaveri port, Vanagiri port, Thirukkadaiyur port, Thirukkuvalai port, Punnakkayal port, Udangudi port, Manappad port, Koodankulam port, Chettinad Tharangambadi Port, Mathur SIDCO Industrial area, Sipcot Industrial Park Malayambakkam
Category: 
Raw Chemicals-19
Generic Name: 

Magnesium 2-oxopyrrolidine-5-carboxylate

Product Description: 
Product Application: 

CAS Registry Number: 5819-47-6

Product Procedure: 
Product Note: 
Synonyms: PCMH, NIOSH/UY0685000, EINECS 227-392-8, CID9838620, Magnesium 2-oxopyrrolidine-5-carboxylate, Magnesium 5-oxo-2-pyrrolidinecarboxylate, Magnesium 5-oxopyrrolidine-2-carboxylate, LS-137475, Pyrrolidone carboxylate de magnesium hydrate, UY0685000, Pyrrolidone carboxylate de magnesium hydrate, 5-Oxo-2-pyrrolidinecarboxylic acid magnesium salt (2:1), 2-Pyrrolidinecarboxylic acid, 5-oxo-, magnesium salt (2:1).
Product Technical Specification: 
Product pack size: 
Product alias: 
<p> C10H12MgN2O6, Magnesium 5-oxopyrrolidine-2-carboxylate</p>

Magnesium Carboxylate supplier in Dubai, Sharjah, Abudhabi, Ajman, Gulf Middle East, Muscat Oman, Barka, Yemen, Sudan, Kuwait Qatar, Nairobi Kenya

Remarks: 

Magnesium Carboxylate complexes containing intramolecular NH···O hydrogen bonds were synthesized.

Molecular structures of Magnesium Carboxylate were determined by X-ray analysis. A direct NH···O hydrogen bond to the coordinated oxygen atom elongated the Mg–O bond, while a hydrogen bond to the carbonyl group shortened the Mg–O bond. Double NH···O hydrogen bonds significantly lowered the basicity of the carboxylate anion and prevented coordination to the Mg ion in a trans configuration; however, a cis-dicarboxylate complex was successfully obtained. Strong coordination of water to the Mg2+ ion stabilizes the weak Mg–carboxylate bond at the trans position. In contrast, a weak Mg–carboxylate bond strengthens the Mg–O(water) bond, probably increasing the acidity. Based on the experimental results and theoretical calculations, a new switching mechanism is proposed. In the proposed mechanism, the acidity of the coordinated water on magnesium is controlled during catalytic hydrolysis in endonuclease.